KR20160003575A - Power transmitting apparatus for generator - Google Patents

Abstract

The present invention relates to a power transmission apparatus for a generator capable of achieving efficient power generation of a generator even when receiving bi-directional kinetic energy, characterized in that a generator And a plurality of flow gears coupled to the rotary gear at an inner peripheral surface in the longitudinal direction to flow inside the fixed housing, And a flow housing for guiding rotation of the gear in one direction.

Description

[0001] POWER TRANSMITTING APPARATUS FOR GENERATOR [0002]

The present invention relates to a power transmission apparatus for a generator, and more particularly, to a power transmission apparatus for a generator that enables power generation of a generator provided inside a fixed housing through a structure of a fixed housing and a fluid housing, And a power transmission device.

Most generators are those that convert physical kinetic energy into electrical energy.

Such generators generate electromotive force due to electromagnetic induction by the relative movement of the coils and the magnets relative to each other, generally at intervals.

This is constituted by means of generating a motion of a magnet or a wire according to the Faraday's law and the basic principle of a generator according to Fleming's right-hand rule.

Therefore, in the prior art, a generator is manufactured by using a hydroelectric power generator and a steam power, which are constructed so as to generate movement of a magnet or a wire by using a water drop as a power source, a thermal power, a nuclear power generator and a wind power A tidal generator which uses a generator as a power source for a tidal generator, an engine power generator which uses an engine as a power source, and the like.

However, as described in Document 1 and Document 2, a power transmission device or the like coupled with a generator for rotating such a generator is configured in various forms, but in many cases, rotation of the generator in one direction The power transmission device is connected to the power generator only in a form capable of providing a rotational force corresponding to the direction of rotation of the generator so as to smoothly transmit kinetic energy such as reciprocating motion to the generator, There was a difficult problem.

In addition, when the power transmission means is connected to transmit the kinetic energy such as the reciprocating motion to the generator, in particular, when the wind turbine is to be used, the complex construction of the power transmission device causes the installation cost of the generator and the power transmission device, There is a problem that the efficiency of the power generation is lower than that of the installation cost or the manufacturing cost and the economic efficiency is lowered.

(1) Korean Public Notice Patent Publication No. 1991-0006289 (Aug. 19, 1991) (2) Korean public patent publication No. 90-002694 (1990.04.23)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is as follows.

First, it is possible to provide a power transmission device for a generator capable of flexibly responding to various kinetic energy directions and transmitting rotational power to a generator.

Second, since the size and size of the power transmission device are not unnecessarily increased to increase the efficiency of the generator, the overall manufacturing cost for manufacturing the power transmission device for transmitting kinetic energy to the generator as well as the generator can be reduced .

Third, it is possible to provide a power transmission device capable of smoothly maintaining the rotation force of a generator even when installed in a place where irregular kinetic energy such as wind or hydraulic power is used.

Fourth, it is easy to maintain and repair after installation, and it is possible to achieve stable and efficient generation of generator power through wind and hydraulic power, Device.

In order to achieve the above object, according to the present invention, there is provided a motor vehicle comprising: a stationary housing having a generator for generating power and a rotary gear connected to the motor via a rotary shaft; And a flow housing having a plurality of flow gears meshing with the rotary gear at an inner circumferential surface in the longitudinal direction to be slidably coupled to the interior of the stationary housing and to guide rotation of the rotary gear in one direction in accordance with the sliding position Lt; / RTI >

At this time, the fixed housing may have a coupling hole for coupling the flow housing and a coupling hole for coupling the rotation shaft, and the flow housing may have a plurality of coupling grooves for receiving the flow gear.

The fixed housing may have a guide groove along an inner circumferential surface in the longitudinal direction, and the flow housing may include guide protrusions that can be inserted into the guide groove to be transported.

In addition, the engaging groove forms a through hole for engaging the engaging pin, the rotating gear includes a rotating body having a through hole for engaging the engaging pin and a projecting projection engaging with the rotating gear, And a spring coupled to the rotating body for controlling the turning radius of the rotating body.

The fixed housing may include a battery for storing power generated by the generator, and a LED module, a camera module, and a communication module that operate through the power of the battery.

Meanwhile, the fixed housing and the fluid housing may be formed with connection rings.

According to the present invention, it is possible to flexibly cope with various kinetic energy directions through the structure of the power transmission device that transmits the rotational force to the generator according to the sliding engagement state of the fixed housing and the flow housing, and can stably operate the generator.

Further, in order to increase the efficiency of the generator, it is possible to operate the generator stably and efficiently without unnecessarily increasing the size and the size of the power transmission device, thereby reducing the overall manufacturing cost and reducing the overall cost .

In addition, even when installed in a place where irregular kinetic energy such as wind force or water power is transmitted and used, the rotational force of the generator can be maintained smoothly, so that stable power generation can be achieved through the generator.

1 is a front sectional view showing a power transmission apparatus for a generator according to the present invention.
2 is a side cross-sectional view of a power transmission device for a generator according to the present invention.
3 is a front sectional view showing a coupled state of the power transmission device for a generator according to the present invention.
4 is a front sectional view showing an operational state of a power transmission apparatus for a generator according to the present invention.
5 is a front sectional view showing another operational state of the power transmission apparatus for a generator according to the present invention.
Fig. 6 is a view showing the state of use of the power transmission device for a generator according to the present invention. Fig.
7 is another use state view of the power transmission device for a generator according to the present invention.
8 is a front sectional view showing a state in which the gears of the fixed housing and the fluid housing are changed according to another embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed to be limited to ordinary or dictionary meanings, but the inventor may appropriately define the concept of the term to describe its invention in the best way Can be interpreted as meaning and concept consistent with the technical idea of the present invention.

It should be noted that the embodiments described in this specification and the configurations shown in the drawings are merely preferred embodiments of the present invention and do not represent all the technical ideas of the present invention, It should be understood that various equivalents and modifications may be present.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a power generating device comprising a fixed housing (10) having a generator (11) for generating power and a rotary gear (13) connected via a rotary shaft (12) And a plurality of flow gears 30 meshed with the rotary gear 13 at an inner peripheral surface in the longitudinal direction and slidably coupled to the interior of the fixed housing 10, And a flow housing (20) for guiding rotation in one direction.

1 to 3, the fixed housing 10 is formed in a box shape having a coupling hole 10a through which the fluid housing 20 can be coupled to one side of the fixed housing 10, As shown in FIG. 2, a coupling hole 10b is formed on one side of the rotary shaft 12 to connect the rotary shaft 12 to the generator 10.

The fixed housing 10 is preferably formed of a metal material of a solid material in order to prevent it from being easily corroded or damaged due to its installation position or environment. 20) are combined with each other to provide smooth sliding, the structure and shape of the sliding member can be changed and changed according to the user's choice.

1, the fluid housing 20 is configured to be insertable into the coupling hole 10a of the fixed housing 10. As described above, the fluid housing 20 is formed along the inner peripheral surface in the longitudinal direction, And a plurality of flow gears (30) meshing with the rotary gear (13).

As shown in FIGS. 1, 3, 4, and 5, the combined structure of the rotary gear 13 and the flow gear 30 may be a combination of the fixed housing 10 and the flow housing 20 4 and 7, when the flow housing 20 slides and flows into the fixed housing 10, the sliding position of the flow housing 20, that is, the fixed housing 10 and the flow The rotating gear 13 provided on the fixed housing 10 can be rotated by the flow gear 30 provided on the inner peripheral surface of the flow housing 20 according to the state of the housing 20 being engaged.

That is, as described above, to rotate the rotary gear 13 of the fixed housing 10 in one direction, a plurality of flow gears (not shown) are arranged on the inner circumferential surface of the flow housing 20 to engage with the rotary gear 13 30).

1 and 3 to 5, the flow housing 20 includes a plurality of coupling grooves 21 on which the flow gear 30 can be mounted.

The flow gear 30 is installed in the coupling groove 21 of the flow housing 20 so that the rotary gear 13 can rotate only in one direction. The connecting groove 21 is formed with a through hole 21a to which the connecting pin 25 is coupled. The flow gear 30 is connected to the connecting hole 21, as shown in FIGS. 1 and 3, A rotating body 31 having a through hole 31a for engaging the engaging pin 25 and a projecting projection 31b engaging with the rotating gear 13 as shown in Figure 5, And a spring 32 coupled to the rotating body 31 for controlling the turning radius of the rotating body 31 provided on the body 21.

In this case, the spring 32 is constructed by applying an embodiment of the present invention. The spring 32 is configured such that the flow gear 30, which is coupled to the inside of the coupling groove 21 of the flow housing 20, The spring 30 may be constructed by applying a conventional spring coupling technique according to the user's selection.

Even when the flow gear 30 and the rotary gear 13 are engaged with each other through the fixed housing 10 and the flow housing 20 through the above-described structure, 4 and 5, the flow housing 20 flows inside the fixed housing 10, and the flow of the fluid is prevented by the flow of the fluid, It is possible to control the rotation gear 13 to rotate in only one direction through the plurality of flow gears 30 provided inside the flow housing 20 even when the coupling shape is changed.

The fixed housing 10 is formed with a guide groove 14 along an inner circumferential surface of the fixed housing 10 in order to achieve a sliding connection between the fixed housing 10 and the flow housing 20, And guide protrusions (22) for being inserted into the guide grooves (14) in a transportable manner.

That is, even when the flow housing 20 is coupled to the fixed housing 10, the guide protrusion 22 of the flow housing 20 is moved along the guide groove 14 of the fixed housing 10, So that the stationary housing 10 and the flow housing 20 are firmly engaged with each other while maintaining a stable connection and flow.

The fixed housing 10 includes a battery 41 for storing power generated by the generator 11, a led module 42, a camera module 43, , And a communication module (44).

The battery 41 has the same function and configuration as the conventional battery 41 capable of storing the power generated through the generator 11 and the LED module 42, the camera module 43, the communication module 44, and the functions and configuration of the LED module 42, the camera module 43, and the communication module 44 are the same as those of the conventional LED module 42, Is omitted.

6 and 7, the fixed housing 10 and the floating housing 20 are formed by the connection rings 15 and 22 so that the fixed housing 10 and the floating housing 20 Can be connected to the tree 1 to operate the generator 11 through the kinetic energy of the wind turbine 1 or the resistance plate 2 swung by the wind or hydraulic force, 10 or the connection rings 15 and 22 of the flow housing 20 are connected to each other by a wind or hydraulic force to move the windshield or hydroelectric power using the flow of the resistance plate 2 It can be accomplished smoothly.

At this time, in order to connect to the structure such as the tree 1, the resistance plate 2, etc., the connecting ropes 3 and 4 are connected to the connecting rings 15 and 22 provided in the fixed housing 10 and the flow housing 20, And the ring 3 may be further combined.

8, according to another embodiment of the present invention, the gear teeth of the rotary gear 13 are changed to a flow gear 30 applied in an embodiment of the present invention, The gear teeth of the rotary gear 13 and the gear teeth of the rotary gear 12 are changed to teeth of the rotary gear 13 applied to the rotary gear 12 according to the embodiment of the present invention, And the rotating gear 12 of the generator 11 connected to the rotating gear 13 can be rotated.

For example, the structure for coupling the rotary gear 10 and the rotary gear 30 may be constructed through various embodiments of the present invention. The shape of the gear 30 and the structure for coupling the gear 30 can be variously modified and applied.

10: fixed housing 10a: engaging hole
10b: fastening hole 11: generator
12: rotary shaft 13: rotary gear
14: guide groove 15, 22: connecting ring
20: fluid housing 21: engaging groove
21a: through hole 22: guide projection
30: Flow gear 31: Rotating body
31a: Through hole 31b: Projection projection
32: spring 32: spring
41: accumulator 42: led module
43: camera module 44: communication module

Claims (6)

A fixed housing (10) having a generator (11) for generating power and a rotary gear (13) connected to the rotary shaft (12) via an inner side;
And a plurality of flow gears 30 meshed with the rotary gear 13 at an inner peripheral surface in the longitudinal direction and slidably coupled to the interior of the fixed housing 10, And a flow housing (20) for guiding rotation in one direction.
The method according to claim 1,
The stationary housing (10)
A coupling hole 10a for coupling the flow housing 20 and a coupling hole 10b for coupling the rotation shaft 12 are formed,
The flow housing (20)
And a plurality of engagement grooves (21) for seating the flow gear (30) are formed.
The method according to claim 1,
The fixed housing 10 has guide grooves 14 formed along its lengthwise inner circumferential surface,
The flow housing (20)
And a guide projection (22) for being inserted into the guide groove (14) so as to be transportable.
3. The method of claim 2,
The coupling groove 21 defines a through hole 21a for coupling the coupling pin 25,
The flow gear 30
A rotating body 31 having a through hole 31a for engaging the engaging pin 25 and a projecting projection 31b engaging with the rotating gear 13,
And a spring (32) coupled to the rotating body (31) for controlling the turning radius of the rotating body (31) provided in the coupling groove (21).
The method according to claim 1,
The stationary housing (10)
A battery 41 for storing power generated by the generator 11,
And a LED module (42), a camera module (43), and a communication module (44) that are operated through the power source of the battery (41).
The method according to claim 1,
Wherein the fixed housing (10) and the floating housing (20) are provided with connection rings (15, 22).

Images